Latest Articles for Materials Science

Research into iron-based superconductors reveals fascinating properties and behaviors under varying conditions.

This article examines how bubbles influence each other and their applications.

Explore how spin point groups influence material properties and applications.

Researchers create unidirectional spin waves using moving magnetic fields.

Researchers apply quantum computing to advance understanding of electromagnetic waves.

A look into how quantum annealers address spin-glass problems.

New design enhances robotic sensitivity and adaptability for improved interaction.

A look into the unique properties of twisted bilayer graphene and its superconductivity.

Exploring how active fluids behave differently from regular fluids and their potential applications.

Exploring the unique properties and potentials of kagome superconductors in condensed matter physics.

A fresh theory improves understanding of paired electron behavior in superconductors.

Examining how the arrangement of materials affects shape and function in bacterial compartments.

Study reveals how light affects charge carriers in InSe for tech applications.

Study reveals insights on melting processes using unsupervised machine learning techniques.

Research reveals unique microwave properties in Vogel spirals using cylinder patterns.

Differential Dynamic Microscopy offers a fresh approach to studying proteins.

Study reveals how energy loss impacts the behavior of spin-chains in quantum materials.

Research advances in modeling complex electron behaviors in materials are crucial.

Examining rapid changes in magnetic properties of Heisenberg spin ladders.

Research reveals how interactions in STO arrays affect oscillation behaviors.

This method improves data collection by focusing on significant changes in experiments.

Explore the design and function of MEMS in modern technology.

A new approach enhances material behavior predictions using small-scale calculations.

Innovative materials control wave scattering for advanced applications in electronics and photonics.

Researchers study KPOs for solving complex optimization problems using the Ising model.

New approach streamlines data integration for enhanced research efficiency.

Weyl semimetals reveal unique electric behaviors under light, promising advances in technology.

Examining how charge fluctuations affect the properties of rare earth materials.

Ferrimagnets show rapid magnetization changes under laser pulses, boosting data storage tech.

Research sheds light on how cellular movements influence tissue shape.

This study examines spin waves in transition-metal dichalcogenide bilayers for future electronics.

A look into how quartz changes structure during heating.

This research links Weyl and chiral phonons, revealing new properties in tellurium crystals.

Researchers study honeycomb structures to reveal unique electronic behaviors in materials.

New designs in resonators could improve quantum computing communication.

New method improves understanding of molecular behavior under electric and magnetic fields.

Researching wave behavior in silicon to improve electronic devices.

How electromagnetic fields impact electron interactions and material properties.

Investigating the relationship between quantum geometry and superconductivity in oxide interfaces.

Researchers explore new memory device technologies using unique thin film materials.